SUB-ELEMENT F

Question 1

What is the limiting condition for sensitivity in a communications receiver?
A. The noise floor of the receiver.
B. The power supply output ripple.
C. The two-tone intermodulation distortion.
D. The input impedance to the detector.

Answer 1

A

Question 2

What is the definition of the term “receiver desensitizing”?
A. A burst of noise when the squelch is set too low.
B. A reduction in receiver sensitivity because of a strong signal on a nearby frequency.
C. A burst of noise when the squelch is set too high.
D. A reduction in receiver sensitivity when the AF gain control is turned down.

Answer 2

B

Question 3

What is the term used to refer to a reduction in receiver sensitivity caused by unwanted high-level adjacent channel signals?
A. Desensitizing.
B. Intermodulation distortion.
C. Quieting.
D. Overloading.

Answer 3

A

Question 4

What is meant by the term noise figure of a communications receiver?
A. The level of noise entering the receiver from the antenna.
B. The relative strength of a received signal 3 kHz removed from the carrier frequency.
C. The level of noise generated in the front end and succeeding stages of a receiver.
D. The ability of a receiver to reject unwanted signals at frequencies close to the desired one.

Answer 4

C

Question 5

Which stage of a receiver primarily establishes its noise figure?
A. The audio stage.
B. The RF stage.
C. The IF strip.
D. The local oscillator.

Answer 5

B

Question 6

What is the term for the ratio between the largest tolerable receiver input signal and the minimum discernible signal?
A. Intermodulation distortion.
B. Noise floor.
C. Noise figure.
D. Dynamic range.

Answer 6

D

Question 7

How can selectivity be achieved in the front-end circuitry of a communications receiver?
A. By using an audio filter.
B. By using an additional RF amplifier stage.
C. By using an additional IF amplifier stage.
D. By using a preselector.

Answer 7

D

Question 8

What is the primary purpose of an RF amplifier in a receiver?
A. To provide most of the receiver gain.
B. To vary the receiver image rejection by utilizing the AGC.
C. To improve the receiver’s noise figure.
D. To develop the AGC voltage.

Answer 8

C

Question 9

How much gain should be used in the RF amplifier stage of a receiver?
A. Sufficient gain to allow weak signals to overcome noise generated in the first mixer stage.
B. As much gain as possible short of self oscillation.
C. Sufficient gain to keep weak signals below the noise of the first mixer stage.
D. It depends on the amplification factor of the first IF stage.

Answer 9

A

Question 10

Too much gain in a VHF receiver front end could result in this:
A. Local signals become weaker.
B. Difficult to match receiver impedances.
C. Dramatic increase in receiver current.
D. Susceptibility of intermodulation interference from nearby transmitters.

Answer 10

D

Question 11

What is the advantage of a GaAsFET preamplifier in a modern VHF radio receiver?
A. Increased selectivity and flat gain.
B. Low gain but high selectivity.
C. High gain and low noise floor.
D. High gain with high noise floor.

Answer 11

C

Question 12

In what stage of a VHF receiver would a low noise amplifier be most advantageous?
A. IF stage.
B. Front end RF stage.
C. Audio stage.
D. Power supply.

Answer 12

B

Question 13

Why is the Colpitts oscillator circuit commonly used in a VFO (variable frequency oscillator)?
A. It can be phase locked.
B. It can be remotely tuned.
C. It is stable.
D. It has little or no effect on the crystal’s stability.

Answer 13

C

Question 14

What is the oscillator stage called in a frequency synthesizer?
A. VCO. C. Phase detector.
B. Divider. D. Reference standard.

Answer 14

A

Question 15

What are three major oscillator circuits found in radio equipment?
A. Taft, Pierce, and negative feedback.
B. Colpitts, Hartley, and Taft.
C. Taft, Hartley, and Pierce.
D. Colpitts, Hartley, and Pierce.

Answer 15

D

Question 16

Which type of oscillator circuit is commonly used in a VFO (variable frequency oscillator)?
A. Colpitts. C. Hartley.
B. Pierce. D. Negative feedback.

Answer 16

A

Question 17

What condition must exist for a circuit to oscillate? It must:
A. Have a gain of less than 1.
B. Be neutralized.
C. Have sufficient negative feedback.
D. Have sufficient positive feedback.

Answer 17

D

Question 18

In Figure 3F15, which block diagram symbol (labeled 1 through 4) is used to represent a local oscillator?
A. 1 C. 3
B. 2 D. 4

Answer 18

B

Question 19

What is the image frequency if the normal channel is 151.000 MHz, the IF is operating at 11.000 MHz, and the LO is at 140.000 MHz?
A. 131.000 MHz.
B. 129.000 MHz.
C. 162.000 MHz.
D. 150.000 MHz.

Answer 19

B

Question 20

What is the mixing process in a radio receiver?
A. The elimination of noise in a wideband receiver by phase comparison.
B. The elimination of noise in a wideband receiver by phase differentiation.
C. Distortion caused by auroral propagation.
D. The combination of two signals to produce sum and difference frequencies.

Answer 20

D

Question 21

In what radio stage is the image frequency normally rejected?
A. RF.
B. IF.
C. LO.
D. Detector.

Answer 21

A

Question 22

What are the principal frequencies that appear at the output of a mixer circuit?
A. Two and four times the original frequency.
B. The sum, difference and square root of the input frequencies.
C. The original frequencies and the sum and difference frequencies.
D. 1.414 and 0.707 times the input frequency.

Answer 22

C

Question 23

If a receiver mixes a 13.8 MHz VFO with a 14.255 MHz receive signal to produce a 455 kHz intermediate frequency signal, what type of interference will a 13.345 MHz signal produce in the receiver?
A. Local oscillator interference.
B. An image response.
C. Mixer interference.
D. Intermediate frequency interference.

Answer 23

B

Question 24

What might occur in a receiver if excessive amounts of signal energy overdrive the mixer circuit?
A. Automatic limiting occurs.
B. Mixer blanking occurs.
C. Spurious mixer products are generated.
D. The mixer circuit becomes unstable and drifts.

Answer 24

C

Question 25

What degree of selectivity is desirable in the IF circuitry of a wideband FM phone receiver?
A. 1 kHz.
B. 2.4 kHz.
C. 4.2 kHz.
D. 15 kHz.

Answer 25

D

Question 26

Which one of these filters can be used in micro-miniature electronic circuits?
A. High power transmitter cavity.
B. Receiver SAW IF filter.
C. Floppy disk controller.
D. Internet DSL to telephone line filter.

Answer 26

B

Question 27

A receiver selectivity of 2.4 kHz in the IF circuitry is optimum for what type of signals?
A. CW.
B. Double-sideband AM voice.
C. SSB voice.
D. FSK RTTY.

Answer 27

C

Question 28

A receiver selectivity of 10 KHz in the IF circuitry is optimum for what type of signals?
A. Double-sideband AM.
B. SSB voice.
C. CW.
D. FSK RTTY.

Answer 28

A

Question 29

What is an undesirable effect of using too wide a filter bandwidth in the IF section of a receiver?
A. Output-offset overshoot.
B. Undesired signals will reach the audio stage.
C. Thermal-noise distortion.
D. Filter ringing.

Answer 29

B

Question 30

How should the filter bandwidth of a receiver IF section compare with the bandwidth of a received signal?
A. Slightly greater than the received-signal bandwidth.
B. Approximately half the received-signal bandwidth.
C. Approximately two times the received-signal bandwidth.
D. Approximately four times the received-signal bandwidth.

Answer 30

A

Question 31

What is the primary purpose of the final IF amplifier stage in a receiver?
A. Dynamic response.
B. Gain.
C. Noise figure performance.
D. Bypass undesired signals.

Answer 31

B

Question 32

What factors should be considered when selecting an intermediate frequency?
A. Cross-modulation distortion and interference.
B. Interference to other services.
C. Image rejection and selectivity.
D. Noise figure and distortion.

Answer 32

C

Question 33

What is the primary purpose of the first IF amplifier stage in a receiver?
A. Noise figure performance.
B. Tune out cross-modulation distortion.
C. Dynamic response.
D. Selectivity.

Answer 33

D

Question 34

What parameter must be selected when designing an audio filter using an op-amp?
A. Bandpass characteristics.
B. Desired current gain.
C. Temperature coefficient.
D. Output-offset overshoot.

Answer 34

A

Question 35

What are the distinguishing features of a Chebyshev filter?
A. It has a maximally flat response over its passband.
B. It only requires inductors.
C. It allows ripple in the passband.
D. A filter whose product of the series- and shunt-element impedances is a constant for all frequencies.

Answer 35

C

Question 36

When would it be more desirable to use an m-derived filter over a constant-k filter?
A. When the response must be maximally flat at one frequency.
B. When the number of components must be minimized.
C. When high power levels must be filtered.
D. When you need more attenuation at a certain frequency that is too close to the cut-off frequency for a constant-k filter.

Answer 36

D

Question 37

A good crystal band-pass filter for a single-sideband phone would be?
A. 5 KHz. C. 500 Hz.
B. 2.1 KHz. D. 15 KHz.

Answer 37

B

Question 38

Which statement is true regarding the filter output characteristics shown in Figure 3F16?
A. C is a low pass curve and B is a band pass curve.
B. B is a high pass curve and D is a low pass curve.
C. A is a high pass curve and B is a low pass curve.
D. A is a low pass curve and D is a band stop curve.

Answer 38

D

Question 39

What are the three general groupings of filters?
A. High-pass, low-pass and band-pass. C. Audio, radio and capacitive.
B. Inductive, capacitive and resistive. D. Hartley, Colpitts and Pierce.

Answer 39

A

Question 40

What is an m-derived filter?
A. A filter whose input impedance varies widely over the design bandwidth.
B. A filter whose product of the series- and shunt-element impedances is a constant for all frequencies.
C. A filter whose schematic shape is the letter “M”.
D. A filter that uses a trap to attenuate undesired frequencies too near cutoff for a constant-k filter.

Answer 40

D

Question 41

What is an advantage of a constant-k filter?
A. It has high attenuation of signals at frequencies far removed from the pass band.
B. It can match impedances over a wide range of frequencies.
C. It uses elliptic functions.
D. The ratio of the cutoff frequency to the trap frequency can be varied.

Answer 41

A

Question 42

What are the distinguishing features of a Butterworth filter?
A. A filter whose product of the series- and shunt-element impedances is a constant for all frequencies.
B. It only requires capacitors.
C. It has a maximally flat response over its passband.
D. It requires only inductors.

Answer 42

C

Question 43

What is a product detector?
A. It provides local oscillations for input to the mixer.
B. It amplifies and narrows the band-pass frequencies.
C. It uses a mixing process with a locally generated carrier.
D. It is used to detect cross-modulation products.

Answer 43

C

Question 44

Which circuit is used to detect FM-phone signals?
A. Balanced modulator.
B. Frequency discriminator.
C. Product detector.
D. Phase splitter.

Answer 44

B

Question 45

What is the process of detection in a radio diode detector circuit?
A. Breakdown of the Zener voltage.
B. Mixing with noise in the transition region of the diode.
C. Rectification and filtering of RF.
D. The change of reactance in the diode with respect to frequency.

Answer 45

C

Question 46

What is a frequency discriminator in a radio receiver?
A. A circuit for detecting FM signals.
B. A circuit for filtering two closely adjacent signals.
C. An automatic band switching circuit.
D. An FM generator.

Answer 46

A

Question 47

In a CTCSS controlled FM receiver, the CTCSS tone is filtered out after the:
A. IF stage but before the mixer.
B. Mixer but before the IF.
C. IF but before the discriminator.
D. Discriminator but before the audio section.

Answer 47

D

Question 48

What is the definition of detection in a radio receiver?
A. The process of masking out the intelligence on a received carrier to make an S-meter operational.
B. The recovery of intelligence from the modulated RF signal.
C. The modulation of a carrier.
D. The mixing of noise with the received signal.

Answer 48

B

Question 49

What is the digital signal processing term for noise subtraction circuitry?
A. Adaptive filtering and autocorrelation.
B. Noise blanking.
C. Noise limiting.
D. Auto squelch noise reduction.

Answer 49

A

Question 50

What is the purpose of de-emphasis in the receiver audio stage?
A. When coupled with the transmitter pre-emphasis, flat audio is achieved.
B. When coupled with the transmitter pre-emphasis, flat audio and noise reduction is received.
C. No purpose is achieved.
D. To conserve bandwidth by squelching no-audio periods in the transmission.

Answer 50

B

Question 51

What makes a Digital Coded Squelch work?
A. Noise.
B. Tones.
C. Absence of noise.
D. Digital codes.

Answer 51

D

Question 52

What causes a squelch circuit to function?
A. Presence of noise.
B. Absence of noise.
C. Received tones.
D. Received digital codes.

Answer 52

A

Question 53

What makes a CTCSS squelch work?
A. Noise.
B. Tones.
C. Absence of noise.
D. Digital codes.

Answer 53

B

Question 54

What radio circuit samples analog signals, records and processes them as numbers, then converts them back to analog signals?
A. The pre-emphasis audio stage.
B. The squelch gate circuit.
C. The digital signal processing circuit.
D. The voltage controlled oscillator circuit.

Answer 54

C

Question 55

Where would you normally find a low-pass filter in a radio receiver?
A. In the AVC circuit. C. In the Power Supply.
B. In the Oscillator stage. D. A and C, but not B.

Answer 55

D

Question 56

How can ferrite beads be used to suppress ignition noise? Install them:
A. In the resistive high voltage cable every 2 years.
B. Between the starter solenoid and the starter motor.
C. Install them in the primary and secondary ignition leads.
D. In the antenna lead.

Answer 56

C

Question 57

What is the term used to refer to the condition where the signals from a very strong station are superimposed on other signals being received?
A. Intermodulation distortion.
B. Cross-modulation interference.
C. Receiver quieting.
D. Capture effect.

Answer 57

B

Question 58

What is cross-modulation interference?
A. Interference between two transmitters of different modulation type.
B. Interference caused by audio rectification in the receiver preamp.
C. Modulation from an unwanted signal heard in addition to the desired signal.
D. Harmonic distortion of the transmitted signal.

Answer 58

C

Question 59

In Figure 3F15 at what point in the circuit (labeled 1 through 4) could a DC voltmeter be used to monitor signal strength?
A. 1 C. 3
B. 2 D. 4

Answer 59

D

Question 60

Pulse type interference to automobile radio receivers that appears related to the speed of the engine can often be reduced by:
A. Installing resistances in series with spark plug wires.
B. Using heavy conductors between the starting battery and the starting motor.
C. Connecting resistances in series with the battery.
D. Grounding the negative side of the battery.

Answer 60

A